INFORMATION HAND BOOK - August - December 2018 - CCE-PROFICIENCE INDIAN INSTITUTE OF SCIENCE, BENGALURU 560012 - CCE, IISc
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CCE-PROFICIENCE
INDIAN INSTITUTE OF SCIENCE, BENGALURU 560012
INFORMATION HAND BOOK
August - December 2018
CONTENTS
Page
Particulars No.
Introduction 4
Instructions 6
Course Schedule 8
Fee Structure 10
Proforma for Certificate 42
REGULAR COURSES
Design of Medical Micro-Devices, Sensors and Intellectual Property Rights
1. 3+0
(Mon-Wed)
2. Innovative Product Development and Design Methods (Mon) 2+0
3. Renewable Energy Resources: Principles, Technology and Utilization (Mon) 2+0
4. Derivatives and Portfolio Management (Tue & Thur) 3+0
5. Internet of Things and Nano Sensors (Tue & Thur) 3+0
6. Semiconductor Device Technologies 2+0
7. Basics of NMR Spectroscopy with Applications in Chemistry and Biology (Tue) 2+0
8. Analysis and Design of Composite Structures (Tue) 2+0
9. Design Thinking and Innovation (Tue) 2+0
10. Vibration and Noise Control in Engineering Structures and Systems (Wed) 2+0
11. Embedded System on ARM Platform (Wed) 2+0
12. Service Design Thinking (Thurs) 2+0
13. IoT for Smart Cities and Smart Campuses (Thur) 2+0
Structural Analysis & Design Optimization of Engineering Structures and
14. 2+0
Systems (Fri)
15. Intellectual Property: Creation, Protection and Commercialization (Fri) 2+0
16. Basics of Data Analytics (Sat) 2+0
17. Nonlinear Finite Element Method (Sat) 2+0
18. Micro and Nano Materials Characterization Techniques (Sat) 3+0
19. Basics of Nanoscience and Nanotechnology (Sat) 3+0
20. Introduction to Industrial Design & Ergonomics (Sat) 3+0
21. Strategic Management (Sat) 3+0
22. Reinforcement Learning (Sat) 3+0
Analog and Digital (DAQ) Circuits and Systems for Microscale Sensors and
23. 3+0
Transducers (Sat)
24. Smart Design Methods and Processes in Automotive Industry-Foundation (Sat) 2+0
25. Computational Machine Learning (Sat) 3+0
26. Smart design methods and processes in Automotive Industry-Advanced (Sat) 2+0
27. Basic Concepts of Finite Element Method (Sat) 2+0
28. Basics of Machine Learning (Sat) 2+0
29. Principles and Applications in Genetic Engineering (Sat) 2+0
30. Biopharmaceutical Technology and Drug Development 2+0
INTRODUCTION Indian Institute of Science (IISc) established in 1909, is a Deemed University and Centrally Funder Technical Institution under the Department of Higher Education, Ministry of Human Resources Development, Government of India. Rapid strides in science and technology make it imperative that the education of professionals be continued over their entire career rather than be confined to a single stretch. What is needed is a complete integration of education with work during their productive life span, which will be adequate to help them cope with new demands. Continuing Education embraces all the processes of education that one undergoes throughout a working life and which have a relevance to the practical problems likely to be encountered in one’s career. It may be realized through formal and informal modes of teaching, or through mass media. In recent years, there has been a growing awareness on the part of Universities that imparting knowledge to people beyond their boundaries is an equally important part of their service to the community. With this broad perspective of their function in society, Universities have begun to seek ways of reaching out to professionals. The IISc has evolved several mechanisms to make the expertise and facilities available to qualified technical people in industries, Universities and research establishments. The need for forging links between academic institutions and industries and R&D organizations has been a goal set for the IISc by its illustrious founder, J.N. Tata. CCE-PROFICIENCE was established with the objective of providing a sustained and rigorous continuing education program offering courses on subjects of topical interest to scientists and engineers in and around Bangalore. This program, believed to be the first of its kind in the country, is a joint venture between IISc and several Professional Institutions/Societies in Bangalore. The program name signifies the coming together of Professional Institutions and the Indian Institute of Science. It was started on an experimental basis in 1980 and has proved to be extremely popular and has attracted wide attention in academic and professional circles. The demand for some courses, especially on computers, microprocessors and management is so overwhelming that it has not been possible to admit all the Eligible applicants. Every year, there has been a steady increase in the number of students as well as the types of courses offered indicative of the growing popularity of this Program. IISc is the custodian of the academic standards of all CCE-PROFICIENCE courses. It has the responsibility of evolving appropriate teaching norms, providing the venue and facilities for conducting courses, organizing the tests and examinations and issuing certificates to the successful participants. These tasks are coordinated by the Centre for Continuing Education (CCE). COURSES Continuing education program organized under CCE-PROFICIENCE offers semester long courses in areas of topical interest. The courses are organized during evening hours so that working professionals can participate without getting their normal work affected. All courses are normally at the postgraduate level and many of these are in fact offered to the IISc students regularly. Participants in certain selected courses are provided practical training in computer and other laboratories, as appropriate. The course contents are regularly upgraded on the basis of feedback from the faculty and the participants. Courses are offered during the period AUG-DEC and JAN-MAY and around 15-20 courses are scheduled during each semester. Each course has lectures at the rate of two or three hours per week depending upon the number of course credits. Tests and examinations are
conducted according to the IISc norms. A series of courses leading to different specializations are offered in a sequential manner, especially in the area of Computer Science and Engineering. This would enable the participants who start with the entry level courses progress towards more advanced ones and specialize in one of the streams. EVALUATION The total marks for assessment will be equally distributed between the seasonal work and end semester examination. The seasonal work consists of class tests, mid semester examination, and homework assignments etc. as determined by the instructor. The participants who maintain a minimum of 75% attendance both in the theory and computer/laboratory classes will be evaluated based on the combined performance in the end semester examination and seasonal work and assigned a letter grade. NO RE-EXAMINATION SHALL BE CONDUCTED UNDER ANY CIR CUMSTANCES. The letter grades carry a 10 point grading assessment as indicated below Grade: A+ A B+ B C D F (Fail) Grade Points: 10 9 8 7 6 5 0 CERTIFICATES Certificates will be issued only to those who get at least a ‘D’ grade. Attendance certificates shall not be issued to anyone. This being a continuing education program meant especially for self-improvement, the credits accumulated cannot be equated with the credits earned through formal education. There shall be no claims for CCE-PROFICIENCE credits being counted towards partial fulfillment of credit requirements towards any degree/diploma or other formal recognitions offered by IISc. Formal Course completion certificates will not be issued under any circumstances to any candidate. FACULTY The instructors for the courses are mostly Institute Faculty. However, competent professionals from other R&D organizations and industries are also involved in teaching some of the courses. REGULAR COURSES Computer Lab: A Computer Laboratory with adequate computer machines and a Silicon Graphics work station with a variety of latest software have been set up for the CCEPROFICIENCE program. All these machines have been locally networked. A good collection of video cassettes pertaining to several courses is also available for viewing at the Centre for the participants. Library: CCE-PROFICIENCE participants can avail of the facility of IISc Main Library and they can also make use of the books in CCE. The books at both the IISc Main Library and
CCE are meant only for reference. The participants can avail of this facility by producing their ID card issued by CCE-PROFICIENCE. Timings: IISc. Library – 8.00 am - 9.00 pm INSTRUCTIONS HOW TO APPLY: Details of the courses are available online at cce.iisc.ernet.in and also download CCE App from Google Playstore. Essential Qualification for any course is a degree in Engineering or a postgraduate degree in Science/Humanities as applicable with pre-requisites. Each participant will be admitted for a Maximum of Two Courses. Applying to courses is strictly through online portal of CCE. Please read all the instructions provided at our portal before applying. Payment of course fee is through payment gateway provided at our online portal and no other means of payment is accepted. The course fee is Rs. 5000/- per credit and registration fee is Rs. 300/- per course. Any other gateway charges must be borne by participant during online payment. For each application, participants must upload (BE, B.Tech / Post Graduation) Convocation/Degree Certificate without fail. (Class conducted: Week days 6 pm. to 8 pm) & (Saturday’s 10 am to 1 pm & 2 pm to 4 pm) FEES The course fee is Rs. 5000/= per credit. Some of the courses include a limited exposure to computer operation and programming / Lab Fee (C). The additional fees of this are Rs. 5,000/- The course fee and laboratory fee should be paid in full at the time of joining the course. REFUND OF COURSE FEE Refund of course fee will not be made, unless the course is withdrawn officially, in which case, the course fee paid will be refunded in full. Application registration fee once paid will NOT BE REFUNDED under any circumstance. Refund of fees in case of dropped courses will take minimum 3-4 weeks. CLASSES Classes will be held in the Lecture Hall Complex of IISc. Lectures will be between 6.00 p.m. and 8.00 p.m. Monday through Friday and between 10 a.m. to 1 p.m. and 2pm to 4 pm on Saturday’s LABORATORY CLASSES The timings and days for laboratory classes will be fixed in the second week of the respective months (August & January) after the complete registration is known. This will be done, keeping in view the convenience of the faculty and all the students of the courses with laboratory component. RESULTS Results of the courses will be announced normally around 1st week of January for August- December term and 1st week of May for January-May term. Certificates will be issued on or after the date of announcement of results and against surrendering the Identity Card.
IDENTITY CARD Participants will be issued identity cards which should be shown on demand. The participants who have successfully completed should surrender the ID card at the time of receiving certificate, failing which the certificate(s) will not be issued to her/him. Police authorized by lodging and compliant and then request the Section Officer, CCE to issue duplicate ID during submitting police compliant and Rs.100/- on penalty In the event of loss of identity card, the matter should be immediately reported to the Officer-in-Charge, CCE-PROFICIENCE in writing. NO REQUEST FOR CHANGE OF EITHER THE STIPULATED DATES, MODE OF PAYMENT, CHANGE OF COURSE OR SUBMISSION/VERIFICATION OF ENCLOSURE TO APPLICATION ETC., WILL BE ENTERTAINED UNDER ANY CIRCUMSTANCE
COURSE SCHEDULE FOR AUGUST - DECEMBER 2018
REGULAR COURSES
Sl.
Name of the Course Credit Faculty Department
No.
Design of Medical Micro-Devices, Sensors and Intellectual Dr. Hardik J Pandya & DESE & Lifeintelect
1.
Property Rights (Mon-Wed)
3+0 Consultancy Pvt. Ltd.
Dr. Lipika Sahoo
Dr. J E Diwakar (Retd.) &
Innovative Product Development and Design Methods (Mon)
2+0 Prof. P. Achutha Rao CPDM & NID R&D
2.
Campus
(Retd.)
CEDT & (Ex.GM &
Renewable Energy Resources: Principles, Technology and Prof. L Umanand
3. 2+0 Consultant at BHEL,
Utilization (Mon) Dr. Saji Salkalachen B’Luru)
Derivatives and Portfolio Management (Tue & Thur)
3+0 Dr. Shashi Jain MS
4.
3+0
5. Internet of Things and Nano Sensors (Tue & Thur) Dr. Vijay Mishra CeNSE
2+0
6. Semiconductor Device Technologies Dr. Digbijoy N Nath CeNSE
Basics of NMR Spectroscopy with Applications in Chemistry 2+0
7. Dr. Hanudatta Atreya NMR RC
and Biology (Tue)
2+0
8. Analysis and Design of Composite Structures (Tue) Dr. G Narayana Naik AE
Dr. J E Diwakar (Retd.) &
2+0 CPDM & NID R&D
9. Design Thinking and Innovation (Tue) Prof. P. Achutha Rao
Campus
(Retd.)
Vibration and Noise Control in Engineering Structures and 2+0
10. Dr. S B Kandagal AE
Systems (Wed)
2+0
11. Embedded System on ARM Platform (Wed) Mr. Haresh Dagale DESE
Dr. J E Diwakar, (Retd.)
2+0 Prof. P. Achutha Rao, CPDM, NID R&D
12. Service Design Thinking (Thurs)
(Retd.) & Prof. TVP Campus & CST
Chowdry
Dr. Pavan Kumar EE & Founder & MD
IoT for Smart Cities and Smart Campuses (Thur) 2+0
13. Tallapragada & Mr Flux Gen Engg. Tech
Pvt. Ltd. B’luru.
Ganesh Hassan
Structural Analysis & Design Optimization of Engineering 2+0
14. Dr. S B Kandagal AE
Structures and Systems (Fri)
Intellectual Property: Creation, Protection and 2+0 Dr. R N Narahari &
15. CeNSE & CST
Commercialization (Fri) Prof. Prof. S Dasappa
Dr. Gopal Krishna
Fiserv India Ltd.,
Basics of Data Analytics (Sat) 2+0 Sharma,
16. Altair Engineering, &
Dr. Badarinath Ambati & Civil Engg.
Prof. M Sekhar
2+0 Distinguished
17. Nonlinear Finite Element Method (Sat) Prof. P C Pandey (Retd.) IISc.
Prof. Gitam Univ.
3+0
18. Micro and Nano Materials Characterization Techniques (Sat) Dr. Suresha S J CeNSE
3+0 Dr. Sanjeev Kumar
19. Basics of Nanoscience and Nanotechnology (Sat) CeNSE
Shrivastava
Dr. J E Diwakar, (Retd.)
Introduction to Industrial Design & Ergonomics (Sat) 3+0 Prof. P. Achutha Rao, CPDM, NID R&D
20.
(Retd.) & Prof. TVP Campus & CST
Chowdry
3+0 Prof. R Srinivasan
21. Strategic Management (Sat) MS
(Emeritus Professor)
Reinforcement Learning (Sat)
3+0 Shalabh Bhatnagar
22. CSA
Analog and Digital (DAQ) Circuits and Systems for 3+0 Dr. Hardik J. Pandya
23. DESE
Microscale Sensors and Transducers (Sat)
CPDM & Founder &
Smart Design Methods and Processes in Automotive Industry- 2+0 Prof. Anindya Deb & Mr.
24. Director, Abhiyantara
Foundation (Sat) Kalyan Kumar K V Technologies
3+0 Mrs. Anandi Giridharan
25. Computational Machine Learning (Sat) ECE & MSRIT
and Prof. Vijay Kumar
CPDM & Founder &
Smart design methods and processes in Automotive Industry- 2+0 Prof. Anindya Deb & Mr.
26. Director, Abhiyantara
Advanced (Sat) Kalyan Kumar K V
Technologies
2+0 Prof. P C Pandey (Retd.) Distinguished
27. Basic Concepts of Finite Element Method (Sat)
IISc. Prof. Gitam Univ.
Dr. Gopal Krishna
Fiserv India Ltd.,
2+0 Sharma,
28. Basics of Machine Learning (Sat) Altair Engineering, &
Dr. Badarinath Ambati & Civil Engg.
Prof. M Sekhar
2+0
29. Principles and Applications in Genetic Engineering (Sat) Dr. N Ravi Sundaresan MCB
2+0
30. Biopharmaceutical Technology and Drug Development Dr. N Ravi Sundaresan MCB
FEE STRUCTURE AT A GLANCE
Regular Courses
Per Credit: Rs.5, 000/-
Computer Lab Fee: Rs.5, 000/-
1. Course with 2 credits# Rs. 10,000/-
2. Course with 2+C credits # Rs. 15,000/-
3. Course with 3+0 credits # Rs. 15,000/-
4. L Stands with 2+L Credits # Rs. 15,000/-
# Credits = Lecture Hours per week
$C Stands for Computer Laboratory
$L Stands for Online Course1. Design of Medical Micro-Devices, Sensors and Intellectual Property Rights (3+0)
Objectives:
This course is aimed at introducing the audience to the state-of-the art in medical microdevices: their design, fabrication methods
and vibrant fields of application and introduce them to the importance of protecting their intellectual property through a detailed
overview of IPR protection specific to the field of biomedical devices. Medical microdevices is an emerging and fast changing
field and this course will give a systematic overview of how to innovate in this highly competitive field and how to protect the
respective ideas/inventions at important junctures of the prototype/product life cycle. Specifically, the course will attempt to meet
the following objectives:
Understand the various types of medical microdevices currently under active research and their different fields of
application
Understand the IC Technology, equipment and processes used in fabrication of such devices.
Understand wafer cleaning, mask designing, metal deposition, photolithography, wet etching, dry etching, PDMS-silicon
bonding, Characterization of fabricated device.
Know the Fabrication process of a microengineered device for use in electronics/biology/medicine.
Introduction to Intellectual Property Rights and familiarization with various terminologies used in the patent space
Hands on module on Patent search with detailed journey through the patent application process, prior art search and other
tools to equip the inventor to protect and save their innovation
Syllabus:
Introduction to medical micro-devices: Devices for flow cytometry/sorting, microchips using dielectrophoresis,
microengineered devices for medical therapeutics, blood pressure sensors, devices for drug delivery, devices for minimally
invasive surgery, for measuring antibiotic susceptibility, devices for testing immunotherapy etc.
Microfabrication technology: Introduction to the clean room, Contaminants, Wafer cleaning processes (DI water, RCA,
metallic impurities, etc.), Substrate materials, Techniques of metallization: PVD [(Sputtering – DC, RF, and Magnetron), thermal
evaporation, e-beam evaporation, PLD], Types of masks, Hard and soft Lithography, Wet etching, Dry etching (RIE and DRIE),
Design of process flow for device fabrication including microfluidics, Bio-MEMS, Microcantilever, Interdigitated electrodes,
Device inspection in Class 10000 clean room (biochips, microheater, microfluidic chips).
Intellectual Property Rights: Meaning of Intellectual Property Rights, Intellectual Property Rights as Human Right, Role of
International Institutions, Provision of IPR under TRIPS and WTO. Kinds of Intellectual property rights: Copy Right, Patent,
Trade Mark, Trade Secret, Design, Geographical Indication, Plant Varieties and Traditional Knowledge.
Patent rights: Origin, Meaning of Patent, Types, Patent Law, Indian Patent Law, The Patents Act 1970, Patentable Subject
Matter, Patentability Criteria and Inventions which are not patentable. Registration Procedure, Patent filing process, Rights and
Duties of Patentee, Assignment and license, Restoration of lapsed Patents, Surrender and Revocation of Patents. Hands on
module on Patent Search. Copyright: Origin, Definition & different types of Copy Right, Registration procedure, Assignment
& license, Terms of Copy Right, Infringement, Remedies, Copy rights with special reference to software, Intellectual Property
Rights in the Cyber World. Trademarks and Trade secrets: Origin, Meaning & Nature of Trade Marks, Types, Registration of
Trade Marks, Offences, Passing Off, Penalties Infringement & Remedies. Design- Meaning, Definition, Objective, Registration
of Design, International convention of design- types and functions. Semiconductor Integrated circuits and layout design Act-
2000.
Target Group:
People working in industry, Academicians, Fresh/experienced graduates in science and engineering, management and law, R&D
institutions
Faculty: Faculty:
Dr. Hardik Jeetendra Pandya Dr. Lipika Sahoo
Electronic Systems Engineering Founder & CEO
Indian Institute of Science, Bangalore Lifeintelect Consultancy Pvt. Ltd.
E-mail: hjpandya@iisc.ac.in Bangalore,
http://beeslab.dese.iisc.ac.in E-mail: lipika@lifeintelect.com
Reference Books Who can apply?
1. Lecture notes on some topics will be provided by the instructor. Graduate in Science/Engineering/Law
2. J.D. Plummer, M.D. Deal, P.G. Griffin, Silicon VLSI Technology,
Pearson Education, 2001.
3. WIPO INTELLECTUAL PROPERTY HANDBOOK
Course Fee: Rs. 15,000/-
4. Indian Patent Act 1970(http://www.ipindia.nic.in/) Schedule: Monday & Wednesday - 6.00 pm to.7.30 pm
5. Indian Trademark and Design Act (http://www.ipindia.nic.in)2. Innovative Product Development and Design Methods (2+0)
Objectives:
The globalization and digital connectivity has forced many organizations to look at the way new products are to be
developed for customer acceptance in the changed competitive “global village”. Proven methods of the past which made
many companies succeed in the “Sellers’ Market” are no longer valid. The organizations have to develop new approaches
for design and innovation to meet the challenges of technology explosion and to increase the speed of development.
There is an urgent need to adopt integrated innovative product development strategies to meet the ever-changing customer
expectations. This Course, through theory classes, aims to look at these issues and create an awareness of innovative product
development process and various design methods to achieve success.
Syllabus:
o Creativity and Innovation
o Integrated Product Development
o Product Design
o Industrial design
o Quality Function Deployment
o Value Engineering
o Design to Cost
o Design for Assembly and Manufacture
o Design for Service
o Failure Modes and Effects Analysis
o TRIZ (systematic Innovation) - Overview
o Concept generation methods
o Concept Selection Methods
Target Group:
Practicing Engineers, Managers involved in New Product development, Design and Development in Industries, R & D
Organizations etc., Academic Personal in teaching/practicing Product design, Product engineering, Design and
Development and fresh engineers interested in Design and Innovation.
Faculty: Faculty:
Dr. J E Diwakar (Retd.) Prof. P Achutha Rao
CPDM., Retired from NID R & D Campus,
IISc., Bengaluru. Bengaluru.
(O) 22933125 Mobile: 9886055955
Email: jed@cpdm.iisc.ernet.in E-Mail: raopanambur@gmail.com
Reference Books
1. New Products Management, Merle Crawford, Who Can apply?
Anthony Di Benedetto; Tata McGraw Hill
Education Private Limited, 2011 Graduation in Engineering, MANAGEMENT
2. Winning at New Products, Robert G Cooper; Basic
Books, 2011 Course Fee: Rs. 10,000/-
3. Creating Breakthrough Products: Innovation from
Schedule: Monday’s 6.00 p.m. to 8.00 p.m.
Product Planning to Program Approval;
Jonathan M. Cagan, Craig M. Vogel, FT Press,
2010
4. Product Design and Development, Karl Ulrich and
Steven Eppinger, McGraw-Hill/Irwin; 5 Edition
May 2011.3. Derivatives and Portfolio Management (3+0)
Objectives:
The course introduces various financial instruments traded in the market. At the end of the course, the participant will have
the knowledge on the use of derivatives, their valuation, and managing risks associated with these derivatives. The course
also covers portfolio management and optimal allocations.
Syllabus:
1. Introduction to Financial Derivatives
2. Bonds and other Interest rate Derivatives
3. Option Derivatives
4. Trading Strategies for Options
5. Valuation of Options, Binomial trees, Monte Carlo methods
6. The Black Scholes Model
7. Modern Portfolio Theory
8. Valuation of Projects using Real Options
Target Group:
Banks and other Financial Institutions, Individuals Interested in Investments, Consultancy Firms.
Faculty:
Dr. Shashi Jain
Asst. Prof.,
Dept. of M S.,
IISc, Bengaluru.
Email: shashijain@iisc.ac.in
Reference Books:
Who Can apply?
1. John Hull,
Options, Futures and other Derivatives, BE/B.Tech.
2. Bodle, Kane, Marcus and Mohanty, Pre-requisites: Basic Mathematics, Probality, Basic
Investments. Knowledge of a Programming Language of Choice.
Course Fee: Rs. 15,000/-
3. Steven E. Shreve
Stochastic Calculus for Finance. Schedule: Tuesday-Thursday - 6.00 p.m. to 7.30 p.m.4. Renewable Energy Sources: Principles, Technology and Utilization (2+0)
Objectives:
To provide and stimulate interest in:
1. Renewable Energy Sources – Working principles, generation technologies and utilization.
2. Solar Photovoltaics – Materials, processes, manufacturing & power systems.
Syllabus:
Renewable Energy Sources: Forms of energy. Energy classification. Environmental impact of fossil fuels. Greenhouse
effect. Low-carbon technologies. Introducing renewable rnergy sources: Biomass, Hydro, Tidal, Wind, Wave, Geothermal,
and Solar (Thermal/Photovoltaic). Working principles, power generation and techno-economic advantages &
disadvantages. Environmental impact.
Solar Photovoltaics: Semiconductor principles; Solar cell design, operation, and characteristics. Silicon material &
manufacturing processes of silicon wafer, solar cell and PV modules. Crystalline versus thin film solar cells. Types of PV
Systems/Power Plants, Balance of System, Performance Ratio/Capacity Utilization Factor. Photovoltaic versus
Conventional power. Life cycle assessment of energy sources. Energy Pay Back Time (EPBT) & Carbon footprint, Carbon
dioxide equivalent (CO2e) in units of gmCO2e/kWh. Levelized Cost of (Renewable) Electricity.
Target Group:
Students (Engg & Science), Faculty (Engg. & Science), Professionals (Renewable Energy/Solar Industry), and
Entrepreneurs.
Faculty: Faculty:
Prof. L Umanand Dr. Saji Salkalachen
DESE, IISc (Former GM & Consultant at BHEL,
Email: lums@iisc.ac.in Bengaluru)
Email: sajisalk@gmail.com
Reference Books
1. Renewable Energy: Power for a Sustainable Future,
(Ed) Godfrey Boyle, 2012 (3rd Ed), Oxford Who Can apply?
University Press, 566 pages.
BE/BTech/AMIE & MSc
2. Photovoltaic Solar Energy: From Fundamentals to
Applications, Angele Reinders, Pierre Verlinden,
Alexandre Freundlich, John Wiley & Sons, 2017. Pre-requisites: Interest in Renewable Energy/Solar
3. Physics of Solar Cells: From Basic Principles to Photovoltaic Power
Advanced Concepts, Peter Wurfel, 3rd Edn., 2009.
4. Renewable Energy Resources, John Twidell & Course Fee: Rs. 10,000/-
Tony Weir, 2015 (3rd Ed), Routledge.
5. Photovoltaic Education: Christiana Honsberg and Schedule: Mondays : 6.00 p.m. to 8.00 p.m.
Stuart Bowden, Solar Power Labs at ASU,
pveducation.org.5. Internet of Things and Nano Sensors (3+0)
Objectives:
To teach basic concepts and practices in development of IoT Prototypes for real world applications
with special reference to Nano Sensors.
Syllabus:
Signal Processing, as well as other aspects of Digital and Wireless Communication Systems
Circuit Design and Performance
The Components of Embedded Systems
Web Applications and Computer Security Risks that can be Related to IoT Devices
Biochips, Biosensors, Implantable Systems and other Emerging IoT Technology
Sensor Nanofabrication and Micro and Nano Characterization
Target Group:
All Engineers and Scientists in Industry and Research Organizations, involved in development of
products, willing to make IoT based startups, who have a stake in charting their organizational strategy.
Faculty:
Dr. Vijay Mishra
CeNSE,
IISc., Bengaluru.
(O) 23601143
Email: vijaymishra@iisc.ac.in
Reference Books
1. Internet of Things from Hype to Reality: Who Can apply?
The Toad to Digitization, Springer, 1st ed. BE/B.Tech./M.Sc./ or equivalent
2017
(2 November 2016), Ammar Rayes,
Course Fee: Rs. 15,000/-
Samer Salam, Tata McGraw Hill.
Schedule: Tuesday-Thursday 6.00 p.m. to 7.30 p.m.
2. Micro and Smart Systems, G K
Ananthasuresh et al., 2011, Wiley India
3. Design of Analog CMOS Integrated
Circuits Paperback – Nov 2017 by Behzad
Razavi.6. Semiconductor Device Technologies (2+0)
Objectives:
Familiarization of the basics of semiconductor device physics
Explaining the working of basic semiconductor devices (various transistor types, LEDs, detectors)
Introduction to devices for power/RF electronics, logic/memory, opto-electronics
Introduction to micro/nano-fabrication techniques used in the development of semiconductor devices
Syllabus:
Basics of semiconductor (energy band, doping, Fermi level, drift-diffusion, etc.), p-n junction, diodes,
MOSFET, BJT/HBT, heterojunction, compound semiconductors, HEMT, RF & power transistors,
IR/visible/UV LEDs and detectors, solar cells basics. Memory/logic devices, low noise transistors. Scaling &
Moore’s law, beyond Moore. Fabrication techniques: lithography, ion implantation, etching, deposition and
epitaxy, annealing, oxidation.
Target Group:
Teachers/lecturers from engineering/general colleges,
Engineers in electronics industry, scientists/engineers from R&D centres/national labs
Faculty:
Dr. Digbijoy N Nath
CeNSE.,
IISc., Bengaluru.
Email: digbijoy@iisc.ac.in
Reference Books
Who Can apply?
1. Semiconductor Device Physics and Design,
Umesh Mishra and Jasprit Singh, Springer, 2008 BE/B.Tech./M.Sc.
2. Introduction to Semiconductor Materials and Course Fee: Rs. 10,000/-
Devices, M. S. Tyagi, Wiley, 2008
Schedule: Tuesday - 6.00 p.m. to 8.00 p.m.7. Basics of NMR Spectroscopy with Applications in Chemistry and Biology (2+0)
Objectives:
To cover the basic aspect of one-dimensional and two-dimensional NMR spectroscopy with application to small molecules
and peptides
Syllabus:
Principles of NMR spectroscopy; NMR hardware; NMR data acquisition; Data processing; 1D NMR-practical aspects of
recording data; 1D proton and 13C NMR spectral interpretation with examples of small molecules; Principles of 2D NMR
Spectroscopy; Basic 2D NMR experiments; Application of 2D NMR for structure determination of organic molecules and
peptides; Application of NMR for ligand binding and drug discovery
Target Group:
Students pursuing M.Sc. in physics/chemistry/biology; Researchers in all areas of chemical and biological sciences;
Scientists from Pharmaceutical and Biotechnology Companies such as Dr. Reddy’s laboratories, Cipla Pharma, Biocon etc.
Faculty:
Dr. Hanudatta S. Atreya
Asst. Prof.
NMR Research Centre,
IISc., Bengaluru
Email: hsatreya@iisc.ac.in
Reference Books Who Can apply?
M. Sc (Physics or chemistry or Biology)
1. NMR Spectroscopy by James Keeler
2. Spin Dynamics by Malcolm H. Levitt Course Fee: Rs. 10,000/-
Schedule: Tuesday’s 6.00 p.m. to 7.30 p.m.
3. NMR of biomolecules by K. V. R. Chary and
G. Govil8. Analysis & Design of Composite Structures (2+0)
Objectives:
Composites are future materials and have been finding applications in all fields of Engineering. Many FEM software
packages are available for analysis & Design. One should first understand the Mechanical behavior of the Composite
Structures before using FEM packages for better quality of professional work and optimum usage of time, computing and
human resources.
Syllabus:
Introduction: Basic Concepts and Terminology, different types of fibers and matrices, their properties and applications.
Micromechanics of Composites: Prediction of properties,
Macromechanics of Lamina: The theory of elasticity, Constitutive equations of a lamina, transformations, numerical
examples.
Failure theories for composite lamina, numerical examples.
Mechanics of Laminated Composites: ABD matrices, numerical examples. Hygrothermal Analysis.
Bending Analysis of Beams.
Analysis of Laminated composite plates: Classical and first order theories, Energy Method, numerical examples.
Buckling analysis of plates.
Design of laminates using Carpet plots, AML plots and numerical examples on design of laminates.
Target Group:
1. Faculty/Technologists/ Engineers/ Scientists/ Trainees/ Project Staff/ etc from Industries, R & D Organizations,
Institutions, Colleges etc.
2. Fresh Graduates, Post Graduates, Ph.D. Students, Research Fellows, SRFs, JRFs, etc.
Faculty:
Dr. G. Narayana Naik,
Principal Research Scientist,
Dept. of AE., IISc.,
Bengaluru- 560 012.
E-mail: gnn@iisc.ac.in
Reference Books Who Can apply?
1. Mechanics of Composite Materials and Structures-
B.E / B.Tech. / AMIE / M.Sc.(Engg.)/ AMAeSI (Engg.)
Madhujit Mukhopadhyay, Universities Press – Engg.-
2004. (Mechanical, Aero, Civil, Automobile, Marine Engg., etc)
OR equivalent
2. Mechanics of Laminated Composite Plates and
Shells –Theory and Analysis – J.N.Reddy, CRC Press
– 2004 Course Fee: Rs. 10,000/-
3. Design and Optimization of Laminated Composite
Materials- Zafer Gurdal, Raphael T Haftka, Prabhat Schedule: Tuesday’s 6.00 p.m. to 8.00 p.m.
Hajela,- John Wiley & Sons,INC--1999.9. Design Thinking and Innovation (2+0)
Objectives:
The globalization and technology explosion has thrown new challenges to the most successful organizations. Barriers to
competition have fallen precipitously as regulations have eased and markets have become more global. The tools and
methods which were useful in the past are not enough to solve complex/wicked problems faced by these organizations due to
unpredictability and dynamic global environment. These management tools have actually taken them away from viable
competitive positions. A company’s innovation capabilities will determine its future growth potential. Design Thinking has
been making waves in the business world. This new approach promises to foster potential 21st century competencies.
Design thinking is now known as a creative-problem solving approach designers use to create new values that are different
and create positive impact. Design thinking has gained popularity as the approach to innovate. The course will expose the
participants, through theory sessions, to the design thinking process and the various proven tools used to achieve innovative,
breakthrough solutions to complex problems.
Syllabus:
Creativity and Innovation
Design, Design thinking,
o Empathies
o Define
o Ideate
o Prototype
o Test
o Design Thinking in New Product/Service Development
o Design Thinking Tools.
Target Group:
Managers interested in Innovation, Strategy; Practicing Engineers, Managers involved in New Product Development,
Design and Development in Industries, R & D Organizations etc., Academic Personal in teaching/practicing Product design,
Product engineering, Design and Development, Innovation, and fresh engineers interested in Design and Innovation.
Faculty: Faculty:
Dr. J E Diwakar (Retd.) Prof. P Achutha Rao
CPDM., Retired from NID R & D Campus,
IISc., Bengaluru. Bengaluru.
(O) 22933125 Mobile: 9886055955
Email: E-Mail: raopanambur@gmail.com
jed@cpdm.iisc.ernet.in
Reference Books
1. Design Thinking: Integrating Innovation, Who Can apply?
Customer Experience, and Brand Value;
Thomas Lockwood, Allworth Press; 2009 Graduation in Engineering, MANAGEMENT
2. Complete Design Thinking Guide for
Successful Professionals; Daniel Ling, Create Course Fee: Rs. 10,000/-
Space Independent Publishing Platform, 2015
3. Change by Design; Tim Brown; Harper Schedule: Tuesday’s 6.00 p.m. to 8.00 p.m.
Business; 2012
4. Design Thinking, New Product Development
essentials from the PDMA; Michael G. Luchs,
K. Scott Swan, Abbe Griffin; 2015, Wiley10. Vibration and Noise control in Engineering structures and Systems (2+0)
Objectives:
Growing awareness of vibration, noise and harshness feeling has necessitated the valid design criterion in the design of machines,
automobiles, buildings, industrial facilities, etc, and the increasing number of standard regulations and human comfort associated
with noise, harshness and vibration makes it mandatory to control vibration and noise leading to quieter technology in pumps,
engines, compressors, chillers and other consumer products. There is a great demand to enhance ride comfort of bikes, cars,
aircrafts and other automobiles. Vehicle Dynamics basics and rowing awareness about noise pollution among the consumer
necessitates the OEM companies to stress upon the products without NVH problems. Analytical, MATLAB and FEM based tools
such as ANSYS, NASTRON, ABACUS and SYSNOISE helps to achieve the goals of NVH study. This course is for
engineers/scientists/entrepreneurs/instructors in the industries/institutes to learn the analytical and experimental skills to tackle the
problems related noise, vibration and harshness (NVH) during design and manufacturing stage for technically superior and
commercially viable product to achieve “EMPOWER INDIA WITH SKILL AND Knowledge”.
Syllabus:
Vibration of structural systems. SDOF, 2-DOF, MDOF and continuous systems. Eigen values and vector estimation methods.
Free and Forced vibration analysis. Torsional vibration and applications. Damping estimation methods
Structural Vibration control elements: isolation, damping, balancing, resonators, absorption, barriers and enclosures. Vibration
and noise standards. NVH measurement tools and techniques. Modal parameter (natural frequency, mode shape and damping)
estimation techniques. Signal and system analysis. Demonstration of vibration and noise experiments – beam, plates, impulse
excitation, electrodynamic shaker excitation, FFT analyzer, stroboscope and mode shape animation, sound level meter,
microphones. Vibration transfer function (VTF) and noise transfer function (NTF)
Noise and its effects on man. Acoustic and sound field. Enclosures, shields and barriers-design. Silencer and suppression systems.
Noise level interpolation and mapping. Harshness effects and measurements and solutions. NVH Parameters related to vehicle
dynamics.
Case studies discussion (vibration reduction in passenger car, tiller, tractors, steering column/wheel vibration diagnosis, Modal
analysis of Helicopter, Vibration diagnosis in diesel engine power plant, rotodynamic analysis of DWR and tracking antenna and
engine and compressor noise attenuation and vibration isolation, engine-compressor mount design, vibration diagnosis in power
plants, gear shift harshness, newspaper printing cylinder vibration diagnosis, engine filter bracket dynamic analysis, noise reduction
for mixer grinders, field audit of industrial chimney for wind induced vibration, stability studies of sports bike, aerodynamic
stability derivatives of scaled model of aerospace vehicles)
Target Group:
Mechanical, Civil, Aerospace, Automotive, Industrial Engineers, Construction Technologists, R & D Labs, New product Design and
Development Groups, Entrepreneurs and Engineering College Instructors. Professionals to pursue Postgraduate and Higher Studies
Faculty:
Dr. S B Kandagal
Dept of AE
IISc., Bengaluru.
Email: ksb@iisc.ac.in
Reference Books Who Can apply?
1. Harris, C.W” Shock and vibration handbook” McGraw
Hill, New York, 2012. BE, ME, MSc , AMIE, or equivalent
2. Ewins, D.J.” Modal analysis: Theory and Practice”, Course Fee: Rs. 10,000/-
Research Studies Press Ltd, England, 2014
Schedule: Wednesday’s 6.00 p.m. to 8.00 p.m.
3. Gillespie, T.D., “Fundamentals of Vehicle Dynamics”,
Society of Automotive Engrs., Inc, 2010.
4. Beranek, L.L,” Noise and Vibration Control”, Wiley,
200811. Embedded System on ARM Platform (2+0)
Objectives:
To Design and prototype Embedded System using ARM Cortex M3/M4 Microcontroller.
Syllabus:
Development toolchain (Compiler, Linker and Debugger), ARM Cortex processor
architecture, caching, interfacing and programming peripherals, interrupt driven
standalone system, introduction to RTOS.
Faculty:
Mr. Haresh Dagale
PRS, Dept of ESE (CEDT),
IISc, Bengaluru
Email. haresh@iisc.ac.in
Reference Books: Who can apply?
1. Joseph Yiu BE or MCA
Definitive Guide to the ARM Cortex
M3 Pre Requisites : C Programming Language
Course Fee: Rs. 10,000/-
2. Ying Bai
Practical Microcontroller Engineering Schedule: Wednesday’s - 6.00 pm to 8.00 pm
with ARM Technology
3. Jonathan Valvano
Embedded Systems – RTOS for ARM
Cortex M3
4. John Levine
Linker & Loaders12. Service Design Thinking (2+0)
Objective
The globalization and digital connectivity has forced many organizations to look at the way new products/services are to
be developed for customer acceptance in the changed competitive “global digital world”. The economy is shifting from
manufacturing economy to Service and Knowledge economy. Service economy is an economy based on providing services
rather than manufacturing or producing goods.
There is increased importance of the service sector in industrialized economies. The current list of Fortune 500 companies
contains more service companies and fewer manufacturers than in previous decades. Many products are being transformed
into services. Design of services is gaining more prominence and becoming a specialized field of expertise. This course
will look at various aspects of service design thinking through theory sessions and discussion. The participants will
become aware of many aspects of service design.
Syllabus:
Innovation, Creativity, Embedded mindset to creative thinking. Barriers to creativity.
Product economy to Service Economy
Service design Thinking
Fields of service design
Principles of Service Design
Marketing: connecting with people, creating customer Value
Product design: Developing products with Service applications
Social design: Delivering Positive social impact
Strategic Management
Operations management
Tools of Service design thinking
Target Group:
Practicing Engineers, Managers Responsible for developing engineering services, Professional in Design and Development
in Industries, R & D Organizations etc., Academic Personal in teaching/practicing Product design/Service design, Product
engineering, Design and Development and fresh engineers interested in Design and Innovation; Start up entrepreneurs.
Faculty: Faculty: Faculty:
Dr. J. E. Prof. P. Achutha Prof. TVP Chowdry
Diwakar Rao (Retd.) Project Scientist CST
Dept. of CPDM., NID R & D E mail:
IISc., Bengaluru. Campus.
tvpchowdry@gmail.co
E Mail:
Email: m
raopanambur@gma
jed@cpdm.iisc.e il.com
rnet.in
Reference Books:
1. This is Service Design thinking: Basics, Tools Cases: Who Can apply?
Marc Stickdorn; Wiley
2. Service Design: From insight to implementation; Graduation in Engineering/Post Graduation in
Andy Polaine, Rosenfeld Media Management (MBA). Post-Graduation in any discipline
3. Change by design: How Design Thinking Transforms Course Fee: Rs. 10,000/-
Organizations and Inspires Innovation; by Tim Brown
4. Designing Services with Innovative Methods: Schedule: Thursday’s: 6.00 pm. to 8.00 pm
Satu Miettinen, Mikko Koivisto; University of Art and
Design Helsinki13. IoT for Smart Cities and Smart Campuses (2+0)
Objectives:
It introduces IoT for smart cities and smart campuses and pertaining concepts. The course is well
balanced in domains of Engineering and Business. It deals with challenges involved in
implementing smart cities. The course will give you a good understanding of various layers of IoT,
which will include communication technologies, Embedded systems, Could technologies, security
of IoT systems and various IoT platforms available.At the end of the course the students will be
able to design basic IoT systems that could be implemented into Smart cities and also work around
interesting business models, which could give the students a head start to enterprise into IoT for
smart cities.
Syllabus:
The course familiarizes the students to handle Iot based system design for Smart Cities and
Smart Campus. Course unfolds as: IoT–Introduction- Distinction from IoT sphere – Sensors and
Actuators - Embedded Systems - Wireless Technology – Mobile application platform - Cloud access
and control – Design Thinking Security in Smart Cities and Smart Campus – Case studies of
Smart Cities - Applications –Other technologies for Smart Cities and Smart Campuses-Artificial
Intelligence-AR/VR-Blockchain-Big data analytics – Launching a Smart City product/service –
MVP-Entrepreneurship in Smart City Products
Target Group:
Working professionals in Embedded, Automation, R&D, Resource Management, Professionals,
Smart Cities and Villages developers , Mobile app developers, Business Development Managers,
Technical Sales Engineers, Policy makers, Entrepreneurs and Aspiring Entrepreneurs
Faculty: Faculty:
Mr. Ganesh Hassan Shankar Dr. Pavan Kumar
Founder & Managing Director of Tallapragada
FluxGen Engg.Tech. Pvt. Ltd. Dept. Of EE
Bengaluru. IISc., Bengaluru.
E-mail: ganesh@fluxgentech.com E-mail: pavant@iisc.ac.in
Reference Books: Who can apply?
1. Designing, Developing and Facilitating smart B.E / B.Tech. ME/M.Tech & MCA
cities – Urban design to IoT solutions. Vangelis
Angelakis. Elias Tragos, Henrich C, Pohis, Adam Pre-requisites:
Kapovits and Alessandro Bassi. Springer 2017.
Basic Electronics and Basic Programming
2. Internet-of-things (IoT) – Architectures,
Algorithms, Methodologies. Dimitrios Serpanos,
Marilys Wolf. Springer 2018. Course Fee: Rs. 10,000/
3. Designing the Internet of Things. Adrian Schedule: Thursday’s 6.00 pm - 8.00 pm
McEwen and Hakim Cassimally. Wiley 2014.14. Structural Analysis and Design Optimization of Engineering Structures and
Systems (2+0)
Objectives:
Advanced research in material science to enhance the life with reduced cost resulted in metal alloys, plastics, composites
and nano materials. Structural design and optimization of components with unusual shapes became possible with
current available finite element software tools such as ANSYS, NISA, NASTRON, ABACUS, SYSNOISE, LSDYNA and
MATLAB etc. The fundamental knowledge of stress, strain, shear, torsion in relation to the structures and S-N curves
in relation to the material fatigue life becomes important. The interpretation of the FEM software output calls for the
knowledge of analysis and design optimization of mechanical systems. This course essentially trains
engineers/scientists/entrepreneurs/instructors in the industries/institutes to optimally design various mechanical
systems and sub-systems for technically superior and commercially viable value added product and achieve
“EMPOWER INDIA WITH SKILL AND Knowledge”.
Syllabus:
Applied mechanics, Strength of materials, SFD, BMD, AFD, solid mechanics, concept of stress, strain and fatigue.
Constitutive laws. Mohr’s Circle, Engineering materials and their properties. Structural analysis concepts, tension,
compression, shear, torsion, coupled system, and S-N curves. Design of beams, torsion, compression members and
fasteners. Stability of structures. Composite materials and their importance in structural analysis design
optimization.
Principles of optimization, formulation of objective function and design constraints, classification of optimization
problem. Single and multivariable optimization. Optimization with equality and inequality constraints.
Optimal design of mechanical elements – fasteners, springs, gears, bearings, belts, clutches, brakes, shafts and axles.
Procedures for product design, development and testing. Vibration of structures
Case studies in structural analysis and optimal design of industrial products
(optimization of passenger car sub systems for vibration and noise reduction, Rail-coach-CBC couplers, Car door window
regulator, satellite tracking antenna and DWR antenna design, Tractor canopy, hydraulic crawler driller (drilling
machine), Bike brake system, sluice valve design, failure analysis if piston drill bit, thermally insulated box, IP turbine
blade failure analysis, design analysis of super pump impeller, Structural design aspects in power plants. Hydraulic
jacks/Feed cylinder with intermediate supports, Industrial chimney design, optimization of box culverts, metal-
composite sprocket for bikes, Thermal analysis of heat exchangers, 6-DOF force balance, pitch flexure, roll flexure
design for wind tunnel model studies for aerodynamic derivatives of aerospace vehicle and automobiles).
Target Group:
Mechanical, Civil, Aerospace, Automotive, Industrial Engineers, Construction Technologists, R & D Labs, New product
Design and Development Groups, Entrepreneurs and Engineering College Instructors. Professionals to pursue
Postgraduate and Higher Studies
Faculty:
Dr. S B Kandagal
Dept of AE
IISc., Bengaluru.
Email: ksb@iisc.ac.in
Reference Books Who Can apply?
1. Beer F P and Johnson, E.R, “Vector Mechanics for
Engineers- Statics and Dynamics”, Tata-Mac Graw Hill, BE, ME, MSc , AMIE, or equivalent
sixth Edison, 2012.
2. Shigley, J.E and Mischke, C.R., “Mechanical Engineering Course Fee: Rs. 10,000/-
Design” Tata-Mac Graw Hill, sixth Edison, 2010.
3. Johnson Ray, C.” Optimum design of Mechanical
Schedule: Friday’s 6.00 p.m. to 8.00 p.m.
Elements”, Wiley, John & Sons, 2014.15. Intellectual Property: Creation, Protection and Commercialization (2+0)
Objectives:
To introduce participants to the broad field of Intellectual Property, in brief on Indian IP laws. Scouting
for IP in academic research. This course aims to impart theoretical and practical aspects of IP
Protection and commercialization - patents in particular.
Syllabus:
Equipping with English language to gear-up for IP analysis and writing. Scouting for IP in blue-
sky/basic research; Discovery V/s invention. Inventive ideas to vendible products with IP Protection.
Various forms of IP; inculcating IP culture in an academic environment. Patenting an Invention –
disclosure to drafting claims. Avenues of commercialization of IP.
Target Group:
All engineers and scientists in R&D establishments, institutions and industry who have a stake in
creating IP.
Faculty: Faculty:
Dr. R.N. Narahari Prof. S Dasappa
CeNSE CST
IISc., Bengaluru. IISc., Bengaluru.
Email: naraharirn@iisc.ac.in,
Email: dasappa@iisc.ac.in,
Reference Books
Who Can apply?
1. Universal’s “Intellectual Property Laws” 2017
Universal Law Publishing Co. Pvt Ltd, Delhi. B.E./ B.Tech./ Masters in Science/commerce.
2. Taraporevala, VJ, 2005 “Law of Intellectual Course Fee: Rs. 10,000/-
Property”published by VJ Taraporevala,
Mumbai. Schedule: Friday’s 6.00 p.m. to 8.00 p.m.
3. Prabuddha R Ganguli, 2001. ÏPR - Unleashing
the knowledge economy”, Tata McGraw Hill,
New Delhi.16. Basics of Data Analytics (2+0)
Objective
To introduce various aspects of Data Science and prepare the students for future education in
advanced topics of data science.
Syllabus:
Basics of Probability and Stochastic Processes, Forecasting, Smoothing Techniques, Bivariate and
Multivariate Regression, Non-Linear Regression, Univariate Data, Auto Correlation and Partial
Auto Correlation, Box – Jenkins ARIMA, Introduction to AI, Neural Network, Machine Learning
and NLP.
Target Group: Any Industry dealing with Data.
Faculty Faculty Faculty
Dr. Gopal Krishna Dr. Badarinath Prof. Muddu
Sharma Ambati Sekhar
Fiserv India Ltd., Altair Dept. of Civil
Bengaluru. Engineering, Engineering,
Email : Bengaluru. IISc., Bengaluru.
gopalaks@yaho Email : Email :
o.com abadarinath@yah muddu@iisc.ac.in
oo.com
Reference Books:
1. Spyros Makridakis et. al. Forecasting
Methods and Applications Wiley, 2005. Who Can apply?
2. Bovas Abraham and Johannes Ledolter Any Engineering Degree with Mathematics
Statistical Methods for forecasting Wiley,
1983. Course Fee: Rs. 10,000/-
3. Kishor S. Trivedi, Probability and Schedule: Saturday’s: 10.00 am. to 12.00 Noon
Statistics with Reliability, Queuing and
Computer Science Applications. Wiley, 200217. Nonlinear Finite Element Method (2+0)
Objectives:
This is a second level course covering some advanced topics in Finite Element Analysis. In particular,
focus would be on Concepts and techniques of Nonlinear Finite element Analysis in this course.
Nonlinear FEM techniques are usually not covered in the first course of FEM. The FEM treatment of
Nonlinear problems requires additional background of the inelastic behavior of materials and
nonlinear-mechanics for better understanding but, such options are generally not available to graduate
engineers or even to post-graduates. However, practicing engineers, especially structural analysts and
designers, usually come across many practical problems which require nonlinear finite element
analysis. Most of the commercial packages do have nonlinear analysis facilities. However, even to use
such packages a good understanding of Nonlinear Finite Element analysis techniques is required. The
objective of this course is to introduce basic concept of nonlinear finite element analysis with reference
to solid mechanics applications. Bucklings are included.
Syllabus:
Review of linear FEM with reference to Isoparametric 2-D and 3-D Finite Elements. Concept of
Material, Geometric and Contact Nonlinearities. Elements of Nonlinear Mechanics, Constitutive
Relations using Plasticity. Finite-Deformation, Finite Element Formulation of Nonlinear problems in
Solid Mechanics. General Solution Techniques, Computational Aspects and Application.
Faculty:
Prof. P. C. Pandey (Retd. IISc.)
Distinguished Professor, GITAM University,
E-mail: profpcpandey@yahoo.com/
pcpandey@civil.iisc.ernet.in
Reference Books: Who can apply?
1. Cook, R. D., et.al,
BE/ B.Tech.
Concepts & Applications of Finite Element Analysis,
(Civil/Mechanical/Aerospace), OR equivalent
John Wiley & Sons, 2002 (IV Ed)
2. Zienkiewicz, O. C., and Taylor, R. L.,
Pre-requisites:
The Finite Element Method, V Edn., Vol 1 & 2, Basic knowledge of Solid Mechanics. An Exposure to
McGraw-Hill, 2002 (V Ed.). Basic Finite Element Method
3. Reddy, J. N. Course Fee: Rs.10,000/-
An Introduction to Nonlinear Finite Element Analysis,
Oxford University Press Inc, Schedule: Saturday’s – 10 am to 12 noon
Oxford, 2004.18. Micro and Nano Materials Characterization Techniques (3+0)
Objectives:
This course will introduce a range of advanced techniques available for the characterization of engineering
materials, including electron microscopy, scanning probe microscopy, spectroscopy and thermal analysis.
Discuss the basic underlying principles, capabilities, limitations and applications of different characterization
methods.
Real-world examples of materials characterization will be presented throughout the course, including
characterization of thin films, surfaces, interfaces, and nanostructured materials. This course also involves
Laboratory demonstration to provide practical understanding of materials characterization.
Syllabus:
Introduction to Structure of Materials, X-ray Diffraction: Principles and Applications, Scanning Electron
Microscopy (SEM), Basics of Transmission electron microscopy (TEM) and diffraction, Focused ion beam
(FIB), Atomic Force Microscopy and Applications
Electrical resistivity, Hall effect, UV-VIS spectroscopy, FTIR and Raman spectroscopy
Brief survey on surface characterization (XPS, RBS, SIMS) as well as thermal (DSC, TGA) and mechanical
Characterization (Nanoindentation, Micro UTM) techniques.
Target Group:
Lecturers, Assistant/Associate Professors, (Engineering Colleges), Engineers, Scientist, Research Staffs in
industry and Research Organizations.
Faculty:
Dr. Suresha S J
CeNSE.,,
IISc., Bengaluru
Mobile: 9482773717, (O) 080-22933253
Email: sureshasj@iisc.ac.in
Reference Books
1. Microstructural Characterization of Materials –
D. Brandon and W.D. Kaplan, John Wiley and Sons, 2008
2. Elements of X-ray Diffraction, Who Can apply?
B.D. Cullity, Addison- Wesley Publishing Co Inc. 1978 B.E/ B.Tech./ M.Sc./M.E/M.Tech./ or equivalent
3. Scanning Electron Microscopy and X-ray Microanalysis,
J. Goldstein, D. Newbury, D. Joy, C.Lyman, P. Echlin, E. Course Fee: Rs. 15,000/-
Lifshin, L. Sawyer and J. Michael, 3rd Edition, Springer
Schedule: Saturday’s 10.00 a.m. to 1.00 p.m.
Science 2003.
4. Transmission Electron Microscopy:
A Textbook for Materials Science, Second Edition. David
B. Williams and C. Barry Carter. Springer, New York,
2009.19. Basics of Nanoscience and Nanotechnology (3+0)
Objectives:
The field of nanoscience and nanotechnology in which the manipulation of matter on an atomic, molecular and
supramolecular scale and is used to obtain entirely new configuration and materials behavior.
Nanotechnology and nanoscience are broad and interdisciplinary areas that include (bio) chemistry, physics, biology,
materials science, electrical and electronics engineering and more.
The course main objective is to enhance, original, and innovative thinking.
The course encourages diverse group work, constructing international 'think tank' for the creation of new ideas.
The main objectives of this course are:
1. To understand the fundamentals of Nanoscience Nanotechnology
2. To give a general overview of different classes of Nanomaterials
3. To impart basic knowledge on various synthesis and characterization techniques involved in Nanotechnology
4. To make the learner familiarize with nanotechnology prospective
Syllabus:
Basic concepts of Nanoscience and Nanotechnology (9 hours)
Different classes of Nanomaterials (9 hours)
Overview of Fabrication and characterization techniques (15 hours)
Research Trends & IP Protection (3 hours)
Various Applications (3 hours)
How to prepare good research proposal? (3 hours)
A tour to the National Nano Fabrication and Characterization facilities at CeNSE (3 hours)
Target Group:
Faculty teaching undergraduates courses on Science and Engineering
Undergraduate students(BE/MSc)/PhD students
Faculty:
Dr. Sanjeev Kumar Shrivastava
National Coordinator & Chief Operating Officer ( I-STEM & INUP)
Project Management Office
SF-35, Centre for Nano Science and Engineering (CeNSE)
IISc., Bengaluru
Email: sanjeevs@iisc.ac.in
Reference Books
1. Thiruvadigal,J.D., Ponnusamy,S..Sudha.D. and
Krishnamohan M, “Materials Sciences”, Vibrant Who Can apply?
Publication, Chennai, 2013.
B.E/ B.Tech./ M.Sc./Faculty Teaching Similar
2. Rajendran.V, “Materials Science”, Courses in Engineering Colleges.
Tata McGraw- Hill, New Delhi, 2011.
3. Pradeep T., “A Textbook of Nanoscience and Course Fee: Rs. 15,000/-
Nanotechnology”, Tata McGraw Hill Education Pvt. Ltd.,
2012. Schedule: Saturday’s 10.00 a.m. to 1.00 p.m.
4. Hari Singh Nalwa, “Nanostructured Materials and
Nanotechnology”, Academic Press, 2002.You can also read
